Month: June 2015

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Andrea Explains Fitting the Bill

Andrea Explains Fitting the Bill

Andrea Explains Fitting the Bill: White-winged Crossbill, Courtesy and Copyright Paul Higgins, www.pbase.com/phiggins/
White-winged Crossbill
Copyright © 2009 Paul Higgins
More photos at pbase.com/phiggins/
and utahbirds.org Photo Gallery

Red Crossbill (female)
Copyright © 2009 Paul Higgins
More photos at pbase.com/phiggins/

Few among us would choose to eat a steak with a spoon or soup with a fork. And in the world of birds, it’s the same story – you need the right tool for the right job – and you can tell a lot about a bird by paying attention to its beak.Andrea Explains Fitting the Bill

Physiologically, beaks are a specialized extension of the skull and are coated in keratin – the same material that makes up our fingernails. And like our fingernails, the cutting edges of the beak can be re-grown as they are worn down by use.

Birds use beaks for a multitude of tasks including preening, weaving nests, and defending territories. However it is the task of eating that seems to dictate beak shape and size. Envision the hummingbird, for instance. Its long, thin beak – and corresponding tongue – is designed to reach deep into flowers to collect the nectar within. A hummingbird beak would not work for a woodpecker or a great horned owl. Likewise an eagle’s beak needs to be sharp and strong for tearing flesh, and wouldn’t suit the lifestyle of an ibis or a sparrow.

One Utah native, the aptly-named red crossbill, has one of the most unique beaks around. When closed, its curved top and bottom bills overlap crossways in what looks like an awkward and uncomfortable pose.

French naturalist Count Buffon, first laid eyes on a crossbill in the mid-1700’s. The bird was collected in the Americas, then shipped abroad for examination. Without observing the crossbill in its natural habitat, Buffon labeled its beak “an error and defect of nature, and a useless deformity.” More than 50 years later, Scottish-American naturalist Alexander Wilson observed a crossbill in the wild and determined that its beak ‘deformity’ was in reality a magnificently adapted tool. The crossbill’s diet consists mainly of the seeds of conifer trees, and it turns out that the bird’s curiously crossed beak is perfectly adapted to prying apart the scales of pinecones to get at the seeds within.

Members of the finch family, these birds are often seen in flocks and occasionally visit backyard feeders. They are easily identified by their unique beaks, which serve as a reminder that the right tool for the right job can sometimes seem a bit unconventional.

For more information and photographs of crossbills, visit our website at www.wildaboututah.org. Thank you to Rocky Mountain Power Foundation for supporting the research and development of this Wild About Utah topic.

For the Stokes Nature Center and Wild About Utah, this is Andrea Liberatore.
Credits:
Photos: Courtesy & Copyright Paul Higgins(phiggins)www.pbase.com/phiggins
Text:    Andrea Liberatore, Stokes Nature Center, logannature.org

Additional Reading:

Benkman, Craig W. 1987. Crossbill Foraging Behavior, Bill Structure, and Patterns of Food Profitability. The Wilson Bulletin 99(3) p. 351-368 https://www.uwyo.edu/benkman/pdfs%20of%20papers/benkman_1987_wilsonbull.pdf

Conniff, Richard. 2011. The Species Seekers: Heroes, Fools and the Mad Pursuit of Life on Earth. W.W. Norton & Company: NY https://www.amazon.com/Species-Seekers-Heroes-Fools-Pursuit/dp/0393341321

Pearson, T. Gilbert (ed.). 1936. Birds of America. Garden City Publishing Company, Inc. Garden City, NY https://www.amazon.com/T-Gilbert-Pearson/dp/1331531268/ref=pd_lpo_14_t_0/144-1525643-4789824

Andrea Explains Fitting the Bill
Andrea Explains Fitting the Bill

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Pot Holes and Fairly Shrimp

Aerial view of potholes in Navajo sandstone, Grand County, Utah. Photo Courtesy USGS
Aerial view of potholes in Navajo sandstone, Grand County, Utah.

Photo Courtesy USGS 

Click to view larger image of Adult Fairy Shrimp, Photo Courtesy USGSAdult fairy shrimp
Branchinecta packardi.
Photo Courtesy USGS 

Click to view larger image of Adult Vernal Pool Fairy Shrimp, Photo Courtesy USGSAdult Vernal Pool Fairy Shrimp
Branchinecta lynchi
Photo Courtesy USGS 
 

Shrimp in the desert landscape of Canyonlands National Park? Yep. You can find them, –fairy shrimp– when the rainy season arrives and turns dry, dusty potholes into water-filled rock basins brimming with life.

A surprising array of creatures relies on these potholes for life, and one of the most curious is the fairy shrimp. These unique crustaceans are found in small potholes that dot sandstone outcrops found in America’s Southwest. Their eggs maintain resilience during the dry season, and when spring rains arrive, the shrimp hatch.

There are more than 300 varieties of fairy shrimp, the most common being the Vernal Pool Fairy Shrimp. These little guys measure between a half-inch to one-and-a-half inches long as adults. They can be found anywhere ephemeral pools are present, though the majority of their population resides in California and Oregon.

Fairy shrimp vary in color depending on the menu found in their particular pool of residency, ranging from translucent, to orange, even to blue! They feature 11 pairs of legs to propel themselves upside-down, or more scientifically, ventral side-up.

They also use these incredibly helpful legs to eat unicellular algae, ciliates (sil-ee-its), and bacteria by filter and suspension feeding methods. They filter-feed by pumping water through filtration structures — located in their multi-purpose legs — thus capturing the food. They also are adept at suspension feeding by plucking food floating in the water, again, with their tentacle-like legs. They may also grab or scrape food from the surfaces of other things in their vernal pool, such as sticks and rocks.

What’s truly amazing is how fairy shrimp reproduce. They typically lay drought-tolerant eggs during the summer that over-winter in the dried sediment on the pot hole bottom and then hatch in the spring when the potholes fill with rainwater However, if drought sets in, eggs can be transferred to other pools by floating in gusts of wind or being carried by a particularly curious animal.

These eggs are tough and can withstand varying temperatures, drought, and even the test of time; eggs in laboratory settings have survived intact up to 15 years before hatching.

Under the right conditions, you can observe fairy shrimp in Canyonlands, Arches, and Death Valley national parks. Canyonlands and Arches boast at least two species of fairy shrimp: the Packard Ferry Shrimp, also known as the Rock Pool Ferry Shrimp or the Arizona Ferry Shrimp, and the Great Plains Ferry Shrimp.

Fairy shrimp hatch in the Spring, right after the potholes and vernal pools re-fill with water, so that will be your prime time to look for these interesting creatures. As travelers, you can do your part to help the fairy shrimp by leaving their vernal pools alone. Drinking water, stepping in, or touching a pool can throw off the entire mini-eco-system located in this fascinating habitat.

And remember, our fingers are very salty, so even if you’re using a gentle touch, do not put your fingers in a vernal pool, as it just might raise the salinity and throw off the dissolved oxygen percentage needed for fairy shrimp to survive.

For Wild About Utah and National Parks Traveler, I’m Kurt Repanshek.

Credits:
Image: Courtesy USGS, www.usgs.gov
Image: Courtesy and Copyright Kurt Repanshek, www.nationalparkstraveler.com
Text:     Kurt Repanshek, NationalParksTraveler.com.
Additional Reading:

https://digitallibrary.utah.gov/awweb/awarchive?type=file&item=22782

https://www.nwf.org/wildlife/wildlife-library/invertebrates/vernal-pool-fairy-shrimp.aspx

https://www.arizonafairyshrimp.com/fairyshrimp.html

https://geochange.er.usgs.gov/sw/impacts/biology/vernal/

https://www.nasa.gov/centers/dryden/news/X-Press/shrimp_spotlight.html

https://www.fws.gov/sacramento/es_kids/Vernal-Pool-Fairy-Shrimp/es_kids_vernal-pool-fairy-shrimp.htm

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Riparian Zones and a Critter Quiz

Hello, this is Jim Goodwin.

In a minute I’ve got a critter quiz for you, but first, a word about the huge importance of riparian areas in semi-arid Utah, the second driest state in the union. Utah State’s Extension Service calls riparian zones the green ribbon of life alongside a stream. They are shadier, cooler and moister than adjacent environments.

And with a diverse mix of plants and animals, our few riparian corridors are heavily used by wildlife for food, rest and shelter.

Ok, now for our critter quiz.

What is the largest rodent in North America? Here’s a hint: they can be up to four feet long and weigh 40 to 60 pounds.

Did that do it? No? Alright, this clue will: They spend much of their life in water. They have a beautiful brown coat, a broad flat hairless tail and big orange buck teeth that continually grow, which is why they chew and chew and chew.

Click for larger picture, Beaver with branch in water, Courtesy US FWS, Steve Hillebrand, Photographer
Beaver with branch in water
Courtesy US FWS,
Steve Hillebrand, Photographer
Good, you got it . . . it’s the North American beaver. Or as Utah environmental author Chip Ward calls them: the Flat Tail Climate Hero for the restoration of damaged watersheds. Beaver are amazing aquatic engineers, second only to humans in their ability to manipulate their environment.

In our nation’s history, they’ve played a big role in literarily shaping our western landscape.
Joe Wheaton, Utah State wildlife and a beaver expert, rightly calls the work of the beaver “cheap and cheerful restoration” of our heat stressed watersheds.

In the wild, these mostly nocturnal animals, normally live five to ten years.
Fortunately, they are rarely killed for their pelts these days. Beaver are usually monogamous. They will produce up to 10 babies. The young kits will stay home until they are two or so, before they will take off on their own.

Beaver are master aquatic builders. the original geo-engineers. They build dams to flood areas for protection from predators, for access to their food supply, and to provide safe underwater entrances to their dens. Their dams create beautiful riparian habitat for many other animals, birds, fish amphibians, insects and plants. The flooded areas slow the flow of water and sediment downstream and raise the area water table.

Aspen, cottonwood, willow and dogwood are their preferred tree. Those trees regenerate quickly after beaver topple them. When their ponds freeze over, beaver jam smaller branches into the mud at the bottom of their pond for food storage.

Beaver dams can be 5 to 10 feet high and 150 feet across. They are constructed with branches, stones, and plants and plastered together with mud. Over 1200 beaver dams have been counted in northern Utah’s Bear River mountains alone. The World’s largest beaver dam in Canada is 2,789 feet in length. That’s more than 9 football fields.

Yes, sometimes beaver can be a nuisance to human property and activities. Often, learning to live with beaver and the many benefits they can bring, can be a solution. There are simple time-tested ways to prevent flooding. But if nothing works, they can be live trapped and moved to another area. There’s no need to shoot them.

Be a “beaver believer.” Here are some organizations you can check with to learn more:
Utah State wildlife researchers Wally McFarland and Joe Wheaton have created something called the Beaver Restoration Assessment Tool to track beaver dam building activities and their effects throughout the state.
The Bear River Watershed Council in Cache Valley and Mary O’Brien with the Grand Canyon Trust in southern Utah are excellent organizations to contact.

I’m Jim Goodwin for Wild About Utah.

Credits:
Image: Courtesy US FWS, Steve Hillebrand, Photographer
Text:     Jim Goodwin
Additional Reading:

Beaver Restoration Assessment Tool, https://brat.joewheaton.org/

Bear River Watershed Council, (disbanded, formerly at: https://www.brwcouncil.org/)

Grand Canyon Trust, https://www.grandcanyontrust.org/

Beaver Castor canadensis, National Geographic, https://animals.nationalgeographic.com/animals/mammals/beaver/

Big Bend Habitat Restoration Project: A Natural Work of Heart, Open Spaces-A Talk on the Wild Side, US FWS, https://www.fws.gov/news/blog/index.cfm/2016/3/25/Big-Bend-Habitat-Restoration-Project-A-Natural-Work-of-Heart [Accessed March 31, 2016]

Beaver Dams Strengthened by Humans Help Fish Rebound
60-Second Science – July 25, 2016 – By Jason G. Goldman02:29 https://www.scientificamerican.com/podcast/episode/beaver-dams-strengthened-by-humans-help-fish-rebound/ Also available through the podcast https://itunes.apple.com/us/podcast/60-second-science/id189330872?mt=2

Restoring Degraded Waters, One Pest at a Time, Utah State Magazine, Utah State University, December 7, 2021, https://utahstatemagazine.usu.edu/environment/restoring-degraded-waters-one-nuisance-at-a-time/

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Sage Steppe

Mountain big sagebrush (Artemisia tridentata subsp. Vaseyana) in flower - Photo Courtesy and Copyright Dr. Leila Shultz
Mountain big sagebrush (Artemisia tridentata subsp. Vaseyana) in flower – Photo Courtesy and Copyright Dr. Leila Shultz

Three-tip sage (Artemisia tripartite) with visible yellow flowers. - Photo Courtesy and Copyright Dr. Leila ShultzThree-tip sage (Artemisia tripartite) with visible yellow flowers. – Photo Courtesy and Copyright Dr. Leila Shultz

Zane Gray’s “Riders of the Purple Sage” and Steve Tremble’s “Sage Brush Ocean” are book titles that may invoke excitement from your literary past. Or you may be traveling along the interstates and side roads of our great state as monotony sets in and drowsiness tightens your grip on the wheel while you nod your way through endless miles of this seemingly drab landscape.

In science jargon it’s referred to as sage steppe, the dominant landscape throughout much of Utah and the Great Basin. Much of this maligned biotic community has been degraded or lost through various mismanagement practices. Sage Steppe is considered an endangered ecosystem despite the seemingly large area it inhabits, primarily due to fragmentation. And the iconic Gunnison sage grouse has followed its demise having recently been placed on the threatened species list.
I just returned from spending a day of study in the field with 16 college students running transects for the Grand Teton N.P. The park is spending millions in sage steppe restoration work to reclaim this critical plant community.

Sagebrush is an important member of an ecosystem that helps support many birds, reptiles, amphibians, and mammals, as well as an abundance of insects and microbes. One study found nearly 300 arthropod species directly living on just a few plants including- 72 spider, 237 insect, 42 of which were gall-forming, amongst many other species. Such diversity also indicates that sage is playing an important part in maintaining the health of the environment providing ecosystem services such as soil protection, water conservation and nutrient cycling.
Sage is well adapted to the demands of semi-arid deserts. It has tap roots that can go over 15 feet deep to suck up any ground water that might exist and forms extensive webs of surface roots in association with symbiotic fungal hyphae to efficiently gather any rain that might fall. Oftentimes, sagebrush grows in clonal communities with members that can live over 100 years!

Aromatic odors emanating from sage, especially following a downpour of rain, comes from a mix of chemicals including camphor, terpenoids, and a cocktail of other volatile compounds. Some of the chemicals have anti-herbivory action by killing the gut bacteria of carious browsers although pronghorn antelope seem to have evolved resistance to these toxins. Other browsers like cattle, sheep, and mule deer can only eat sagebrush in small doses or whan the leaves are young and tender.

It is this mixture of molecules that sagebrush produces which come into play for communication. Sagebrush is eaten by many mammals and insects. When sagebrush is browsed on by a pronghorn or grasshopper volatile compounds are released from the wound that warn other branches of the same sagebrush as well as the neighboring sage about the potential threat. The sagebrush in the area react to the warning by metabolizing toxins that make them taste unappealing and that cause digestive discomfort for future herbivores who try to make a meal of them.

Native Americans considered sage a sacred plant. It offered medicine, clothing, shelter, and was commonly used in their ceremonial sweat lodges. Last but not least, my lovely granddaughter was given the name Sage. So the next time you find yourself surrounded by our “sagebrush ocean” pay tribute to this vibrant and intricate community of life.

Jack Greene, a lover of sagebrush.

Credits:

Pictures: Courtesy and Copyright Dr. Leila Shultz
Text: Jack Greene, Bridgerland Audubon Society

Additional Reading: